Ordering number: EN3519A
Monolithic Digital IC
LB1860,1860M,1861,1861M
Variable Speed Fan Motor Driver
Overview
The LB1860 series ICs are drivers for two-phase unipolar drive
DC brushless fan motors. They have functions such as driving,
lock protection, restart and speed control.
Package Dimensions
unit: mm
3098B-DIP10S
[LB1860, 1861]
Features and Functions
. Two-speed mode select function requiring less external
.
.
.
.
.
.
component additions: Full speed and Low speed. Or,
thermistor-controlled continuous variable-speed function
according to ambient operation temperatures.
→ Motor starts rotating at a low speed.
Motor lock protection and automatic return circuit built in
Output transistors: Output current IO = 1.5 A, output circuit
protection Zener diodes (LB1860: M-Vz = 57 V/ LB1861:
M-Vz = 32 V)
→ Enables low-level noise protection with chip capacitor.
Built-in thermal shutdown circuit
Built-in rotation detect function
(Drive mode: ‘‘L’’, Stop mode: ‘‘H’’)
The LB1860 series can be operated from either 12 V or 24 V
power supply by changing an external resistor.
(Strong protection against power supply surge)
Connectable direct to a Hall element
SANYO : DIP10S
unit: mm
3111-MFP14S
[LB1860M, 1861M]
SANYO : MFP14S
SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters
http://www.sanyosemi.com/en/network/
TOKYO OFFICE Tokyo
Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN
73096HA(II)/4060TA,TS No.3519-1/6
LB1860,1860M,1861,1861M
Specifications
Absolute Maximum Ratings at Ta = 25 °C, ( ): LB1860M, LB1861M
Parameter
Symbol
Conditions
Ratings
t % 20 ms
Unit
Maximum input current
ICC max
Output supply voltage
VOUT
Internal
V
Output current
IOUT
1.5
A
RD flow-in current
IRD
10
mA
RD supply voltage
VRD
50
V
Pd1 max
1.1
W
(0.8)
W
Allowable power dissipation
Pd2 max
200
Mounted on 20 × 15 × 1.5 mm glass epoxy board
mA
Operating temperature
Topr
–30 to +80
°C
Storage temperature
Tstg
–55 to +125
°C
Allowable Operating Ranges at Ta = 25 °C
Parameter
Symbol
Input current range
Conditions
Ratings
ICC
Common-mode input voltage range
Unit
6.0 to 50
VICM
mA
0 to VIN –1.5
V
Electrical Characteristics at Ta = 25 °C, ICC = 10 mA
Parameter
Output limiting voltage
Output saturation voltage
Input voltage
Amp input offset voltage
Amp input bias current
RD output saturation
voltage
C flow-out current
C discharge current
Comparator input threshold
voltage
Ct discharge voltage
Rt input current
Rt comparator voltage
Thermal protection circuit
operating voltage
Thermal protection circuit
hysteresis
Symbol
Conditions
LB1860, 1860M: IO = 0.1 A
LB1861, 1861M: IO = 0.1 A
IO = 0.5 A
IO = 1.0 A
IO = 1.5 A
ICC = 7.0 mA
VOLM1
VO sat1
VO sat2
VO sat3
VIN
VOFF
IBA
VRD (sat)
min
54
30
6.4
–7.0
–250
IRD = 5 mA
typ
57
32
0.95
1.15
1.4
6.7
0
max
60
34
1.2
1.5
2.0
7.0
7.0
Unit
V
V
V
V
V
V
mV
nA
0.15
0.3
V
3.9
0.50
0.8 VIN
0.47 VIN
0.2 VIN
–350
0.62 VIN
5.0
0.65
0.83
0.50
0.22
–240
0.65
µA
µA
V
V
V
µA
V
IC1
IC2
VTH1
VTH2
Vct
IRT
VRT
VRT = GND
RT = OPEN
TSD
Design target
180
°C
∆TSD
Design target
40
°C
C = GND
C = VIN
2.7
0.35
0.77
0.44
0.18
–440
0.59
Pin Assignments
Top view
Top view
No.3519-2/6
LB1860,1860M,1861,1861M
Block Diagram and Application Circuit
Constant
current
circuit
0.47 to 10 µ
Output timing control
(
Unit (resistance: Ω, capacitance: F)
): MFP14S
Figure 1
Truth Table
(
): LB1860M, 1861M
IN+
IN–
Ct
Rt1
Rt2
CR
OUT1
OUT2
RD
Mode
H
L
H
L
—
L
H
L
L
Full speed
L
H
H
L
—
L
L
H
L
Full speed
(H)
(L)
—
—
(H)
(L)
(H)
(L)
(L)
(Full speed)
(L)
(H)
—
—
(H)
(L)
(L)
(H)
(L)
(Full speed)
—
—
L
H
L
L
H
H
L
Low speed
—
—
—
—
—
H
H
H
H
Lock protection
Designer’s Notes
(1) Variable-speed circuit (Rt and Ct pins) — Refer to the application circuit diagram
The time constant gained by external components C2 and R2 is used to set the length of an ‘off’ operation time period after
phase switching. This means that the variable-speed operations can be performed by changing the ‘on’ operation time of each
phase through the duty control.
The sawtooth waveform signals are generated by the C2-R2 time constant. The voltage of this signal (Ct pin voltage) increases
from 1.3 V to 4.0 V (Vct) at each phase switching. That is, during this period, the driver becomes inactive (toff), in which
output circuit is turned off.
If VCC ^ 4.0 V, the driver IC remains active (ton) until the next phase switching. During this period, output circuit is turned on.
If the active drive time of each phase is assumed to ‘to’, the following relation can be established:
.
.
.
.
to
=
toff
+
↑
Fixed
constant
ton
↑
Rotation speed
proportional constant
toff = 0.69 c C2 c R2 ........................................ 1
No.3519-3/6
LB1860,1860M,1861,1861M
. From this relation, it can be observed that the ‘t ’ and ‘t
.
o
on’ are in proportional relation with each other, and that the ‘ton/to’
equals the ‘on’ time duty. As a result, a certain rotation speed can be fixed despite the fact that rotation speed exclusively
depends on each motor.
At the start, the ‘ton’ value becomes longer while the ‘toff’ value remains unchanged. This means that the ‘toff/to’ duty becomes
small enough compared to normal rotation mode. Therefore, the same start torque as that of the full speed rotation can be
obtained because the ‘on’ operation time duty increases. This enables the motor to start at a very low speed.
voltage (V pin)
.(2)TheSupply
LB1860 has the internal parallel regulator which supplies power to the Hall amplifier circuit and the control block.
IN
.
.
.
Therefore, the driver ICs are not affected by power source fluctuations and kickbacks from the motor. They maintain the stable
operations even if noise signals such as surge are generated.
Set the resistance R1 between VCC and VIN so that the ICC current of 6 mA to 50 mA can flow onto the VIN pin within the
supply voltage range of a fan motor.
VIN is 6.7 V typ at ICC = 7 mA.
The current flowing into VIN is calculated using the equation shown below.
ICC
. Consideration given to surge voltage
. The maximum allowable current at V
IN
Vsurge
–
=
=
VCC – VIN
R1
............................ 2
pin is 200 mA. Therefore, the pin is designed to withstand abnormal positive voltage of:
VIN + R1 × 200 mA ............................................ 3
+
input pin voltage (Pins IN , IN )
.(3)SetHall
the voltage levels of the input pin for the Hall element output and the Hall element output voltage to within the range of
– 1.5 V.
. 0TheV togainV between
the hall input pin and the output pin is 100 dB or greater. The offset voltage of the hall input amp is ±7 mV,
IN
therefore, the hall element output must be set with the offset voltage (±7 mV) considered.
(4) Output transistor (Pins OUT1, OUT2)
Output current
IO = 1.5 A max
Output saturation voltage
VO sat = 1.15 V/1.0 A typ
Output limiting voltage
VOLM = 57 V typ (LB1860, 1860M)
VOLM = 32 V typ (LB1861,1861M)
Since the LB1860 series have a protect zener diode between collector and base, the kickback voltage induced by the coil is cut
at VOLM = 57 V (32 V). When external capacitors are connected between OUT and GND, the capacitance should not exceed
10 µF.
.
.
.
.
(5) Output protection function (C pin)
Capacitor pin used in forming an automatic return circuit.
If rotation is stopped due to overload, the pin voltage level increases and then forces the output to become inactive. In this case,
after proper load adjustment, the output returns to the ‘drive’ mode from the ‘stop’ mode automatically. By changing the
capacitor value, the lock detect time period can be set.
.
.
For C marked with 1 µF
Rotation
Output ON
Lock
Lock detect time
Lock protect time (output ON)
(output OFF)
Output OFF
Output
ON
Approximately 2 sec.
Approximately 1 sec.
Approximately 6 sec.
Output OFF
Rotation
Lock release
Automatic Return Circuit C Pin Voltage
No.3519-4/6
LB1860,1860M,1861,1861M
1
When a fan is rotating, the capacitor is charged at 4 µA (typ) and discharged through the C with pulses according to the
rotational speed.
2 When a fan is locked, no discharge occurs through the C and the C voltage rises, turning OFF the output at 0.8 × VIN.
3 When the output is turned OFF, discharge occurs through the C at 0.5 µA (typ). If the lock is not released when the C voltage
drops to VTH2, the capacitor is charged to VTH1 again. (At this moment, the output is turned ON.) These operations 2 and
3 repeated at a cycle of approximately ton : toff = 1:6 protect a motor.
4 If the lock is released when the C voltage drops to VTH2, the output is turned ON, starting rotation.
Rotation detect signal (RD pin)
.(6)Open
collector output (Drive mode: ‘‘L’’, Stop mode: ‘‘H’’)
(7) Radio noise reducing (Pins B1, B2)
Base pin of Darlington connection output transistor
If radio noises need to be processed properly, the following actions should be taken:
1 Connect a capacitor of 0.01 µ to 0.1 µF between B1 and B2.
2 Connect a capacitor of 0.001 µ to 0.01 µF between OUT and B.
If output causes oscillation, add a resistor of 200 Ω to 1 kΩ in series with a capacitor.
.
.
(8) Thermal shutdown function
Shutdown the driver output in case of coil short-circuiting and abnormal IC heating.
.
Thermistor-controlled Application Circuit Example
Noise elimination
capacitor
Use of a thermistor enables motor speed to
be sensitive to the operating ambient
temperature.
The Rt pin voltage at Ta = 20 °C has
1.42 ms of ‘toff’ as calculated in expression
4 with the application constant of Figure 2.
However, the Rt pin voltage at Ta = 40 °C
is reduced into less than the Vct (= 1.3 V)
level, which results in a 0 of ‘toff’. This
means the 100% duty.
t = –C2 c R2 c 1n
Figure 2
(
(VIN – VRt)
............. 4
VIN – VCt
): MFP14S
Unit (resistance: Ω, capacitance: F)
Output Timing Chart
Hall input
Discharge pulse
Ct voltage
Output ‘off’ signal
OUT1 current
All-phase ON waveform
OUT2 current
Control output waveform
Figure 3
No.3519-5/6
LB1860,1860M,1861,1861M
Number of rotation, n − rpm
Top Speed
Ambient temperature, Ta − °C
No products described or contained herein are intended for use in surgical implants, life-support systems, aerospace equipment,
nuclear power control systems, vehicles, disaster/crime-prevention equipment and the like, the failure of which may directly or
indirectly cause injury, death or property loss.
Anyone purchasing any products described or contained herein for an above-mentioned use shall:
1 Accept full responsibility and indemnify and defend SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors
and all their officers and employees, jointly and severally, against any and all claims and litigation and all damages, cost and
expenses associated with such use:
2 Not impose any responsibility for any fault or negligence which may be cited in any such claim or litigation on SANYO
ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors or any of their officers and employees jointly or severally.
Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume
production. SANYO believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use
or any infringements of intellectual property rights or other rights of third parties.
This catalog provides information as of July, 1996. Specifications and information herein are subject to change without notice.
No.3519-6/6
Mouser Electronics
Authorized Distributor
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